CN219446150U - Auxiliary equipment for taking 3D printing workpiece - Google Patents

Abstract

The utility model relates to auxiliary equipment for taking a 3D printing workpiece, and belongs to the technical field of 3D printing. The device comprises a hydraulic lifting vehicle, a slide rail base fixing table, a linear slide rail, a slide block, an optical axis fixing plate and an optical axis; the hydraulic lifting vehicle is provided with a lifting mechanism, the upper end face of the lifting mechanism is provided with a slide rail base fixing table, the slide rail base fixing table is provided with a linear slide rail, the linear slide rail is provided with a sliding block in a penetrating mode, the sliding block is provided with an optical axis fixing plate, and the optical axis fixing plate is provided with an optical axis for taking a workpiece. The utility model solves the technical problem of safe and efficient picking of the 3D printing workpiece after printing. The device has the advantages of simple and practical structure, convenient operation and small occupied space, greatly reduces the safety risk in the process of taking the workpiece, and improves the production efficiency.

Description

Auxiliary equipment for taking 3D printing workpiece

Technical Field

The utility model relates to auxiliary equipment for taking a 3D printing workpiece, and belongs to the technical field of 3D printing.

Background

3D printing technology has been widely used in various industries, and is currently being applied to the mold industry. As the size of the 3D printed product is bigger and bigger, the mass and the volume are heavier and bigger, and the volume of the 3D printing equipment is bigger and bigger; at present, a printed workpiece in equipment cannot be easily taken out only by means of taking parts by manpower and the like, and the workpiece is taken out with the risk of being knocked, so that the quality of the workpiece is directly affected; the personnel safety of production personnel is also greatly risked by means of manual picking; resulting in potential safety hazards. Therefore, the technical problem of how to safely and laborsaving take out products and safely transfer the products to subsequent procedures after the 3D printing workpiece is printed is needed to be solved in the technical field.

Disclosure of Invention

The utility model aims to solve the technical problems of how to safely and laborsaving take out products and safely transfer the products to subsequent procedures after a 3D printing workpiece is printed.

In order to achieve the aim of solving the problems, the technical scheme adopted by the utility model is to provide auxiliary equipment for taking 3D printing workpieces, which comprises a hydraulic lifting vehicle, a slide rail base fixing table, a linear slide rail, a slide block, an optical axis fixing plate and an optical axis; the hydraulic lifting vehicle is characterized in that a lifting mechanism is arranged on the hydraulic lifting vehicle, a slide rail base fixing table is arranged on the upper end face of the lifting mechanism, a linear slide rail is arranged on the slide rail base fixing table, a slide block is arranged on the linear slide rail in a penetrating mode, an optical axis fixing plate is arranged on the slide block, and an optical axis for taking a piece is arranged on the optical axis fixing plate.

Preferably, the lifting mechanism is a hydraulic lifting mechanism in the form of a scissor hinge.

Preferably, a moving wheel is arranged below the chassis of the hydraulic lifting vehicle; the chassis of the hydraulic lifting vehicle is provided with a balancing weight.

Preferably, the slide rail base fixing table is provided with two parallel linear slide rails; two sliding blocks are arranged on the linear sliding rail in a penetrating way.

Preferably, the sliding block is fixedly provided with an optical axis fixing plate, and the optical axis fixing plate is provided with an optical axis with the same length direction as the direction of the linear sliding rail.

Preferably, two ends of the linear slide rail are provided with slide rail limiting blocks for preventing the slide blocks from sliding out of the linear slide rail.

Preferably, an anti-drop pin for preventing the workpiece from sliding off from the front end of the optical axis is arranged at one end of the optical axis extending to the workpiece.

Compared with the prior art, the utility model has the following beneficial effects:

the utility model solves the technical problem of safe and efficient picking of the 3D printing workpiece after printing. The transfer equipment provided by the utility model has a simple structure, improves the production efficiency, and reduces the safety risk when the 3D workpiece is taken.

Drawings

Fig. 1 is a schematic front view of an auxiliary device structure for 3D printing workpiece picking.

Reference numerals: 1. a hydraulic lift truck; 2. balancing weight; 3. a slide rail base fixing table; 4. a slide rail base fixing screw; 5. a linear slide rail; 6. a slide block; 7. an optical axis fixing plate; 8. an optical axis; 9. a slide rail limiting block; 10. and (5) preventing pin release.

Detailed Description

In order to make the utility model more comprehensible, preferred embodiments accompanied with the accompanying drawings are described in detail as follows:

as shown in fig. 1, the utility model provides auxiliary equipment for 3D printing workpiece taking, which comprises a hydraulic lifting vehicle 1, a slide rail base fixing table 3, a linear slide rail 5, a slide block 6, an optical axis fixing plate 7 and an optical axis 8; the hydraulic lifting vehicle 1 is provided with a lifting mechanism, the upper end face of the lifting mechanism is provided with a slide rail base fixing table 3, the slide rail base fixing table 3 is provided with a linear slide rail 5, the linear slide rail 5 is provided with a slide block 6 in a penetrating manner, the slide block 6 is provided with an optical axis fixing plate 7, and the optical axis fixing plate 7 is provided with an optical axis 8 for taking a workpiece. The lifting mechanism is a hydraulic lifting mechanism in a scissor hinging mode. A moving wheel is arranged under the chassis of the hydraulic lifting vehicle 1; the chassis of the hydraulic lifting car 1 is provided with a balancing weight 2. Two parallel linear slide rails 5 are arranged on the slide rail base fixing table 3; two sliding blocks 6 are arranged on the linear sliding rail 5 in a penetrating way. The slide block 6 is fixedly provided with an optical axis fixing plate 7, and the optical axis fixing plate 7 is provided with an optical axis 8 with the length direction being the same as the direction of the linear slide rail 5. Two ends of the linear slide rail 5 are provided with slide rail limiting blocks 9 for preventing the slide block 6 from sliding out of the linear slide rail 5. One end of the optical axis 8 extending to the workpiece is provided with an anti-drop pin 10 for preventing the workpiece from sliding off the front end of the optical axis 8.

Examples

The technical scheme adopted by the utility model is to provide 3D printing workpiece taking auxiliary equipment, which consists of a hydraulic lifting car system and a sliding rail workpiece taking system; the hydraulic lifting vehicle system comprises a hydraulic lifting vehicle 1 and a balancing weight 2, wherein the balancing weight 2 is connected with the hydraulic lifting vehicle 1 through screws; the slide rail fetching system comprises a slide rail base fixing table 3, a slide rail base fixing screw 4, a linear slide rail 5, a slide block 6, an optical axis fixing plate 7, an optical axis 8, a slide block limiting block 9 and an anti-drop pin 10; the slide rail base fixing screw 4 is used for fixing the slide rail base fixing table 3 to the upper platform of the hydraulic lifting vehicle 1, the linear slide rail 5 is connected to the slide rail base fixing table 3 through the slide rail base fixing screw 4, the linear slide rail 5 passes through the slide block 6, the optical axis fixing plate 7 is connected with the slide block 6 through the screw, the optical axis 8 is connected with the optical axis fixing plate 7 in a welded mode, the front end of the optical axis 8 in the taking direction is provided with an anti-falling pin 10, and the front end and the rear end of the linear slide rail 5 are provided with slide block 9.

The hydraulic lifting vehicle 1 is matched with the height of printing equipment and the weight of a printed workpiece, and adopts a manual hydraulic vehicle which can be lifted to 1500mm, has a table top with the length of 905mm, the width of 500mm and the bearing weight of 350 kg. In order to prevent the gravity center of the hydraulic lifting vehicle 1 from being unstable and prevent the workpiece from being overturned by excessive weight during the taking of the workpiece, a 50 kg balancing weight 2 is arranged at the rear part of the hydraulic lifting vehicle 1.

In the sliding rail workpiece taking system, the two sliding rail base fixing tables 3 are made of 45# steel, and the size of the sliding rail base fixing tables is 90 x 1000mm, so that the sliding rail workpiece taking system is used for an installation base of the whole sliding rail workpiece taking system; four countersunk screw through holes with the diameter of 8mm are formed in the upper surface of each sliding rail base fixing table 3, and the sliding rail taking system is fixed on the table top of the hydraulic lifting vehicle 1 through 8M 8 sliding rail fixing screws 4.

In the slide rail picking system, the number of the linear slide rails 5 is two, the material is Gcr15 bearing steel, and the size isThe four M8 screws are fixed on the slide rail base fixing table 3; as a moving rail for the slide 6.

In the slide rail picking system, four slide blocks 6 are adopted, and two slide blocks 6 are respectively arranged on each linear slide rail 5. The frame of the sliding block 6 is made of aluminum alloy, and a ball-type linear bearing is embedded in the frame, and the size of the sliding block is 90-72 mm; the linear guide 5 passes through the linear bearing of the slide block 6, so that the slide block 6 slides on the linear guide 5. The four sliders 6 are mainly used for carrying an optical axis fixing plate 7.

In the sliding rail workpiece taking system, the optical axis fixing plate 7 is a steel plate, the material is 45# steel, and the size is 300 x 30mm; four corners of the optical axis fixing plate 7 are respectively provided with four countersunk through holes M10, and 16M 10 screws are connected and fixed with four sliding blocks 6 below through the through holes, so that the optical axis fixing plate 7 is used for welding and fixing an optical axis 8.

In the sliding rail taking system, the total number of optical axes 8 is two, the material is Gcr15 bearing steel, and the size isThe rear end of the optical axis 8 is connected with the optical axis fixing plate 7 through welding; the front end of the optical axis 8 is vertically provided withIs used for inserting the anti-falling pin 10; the optical axis 8 is inserted into the lifting ring of the workpiece substrate during working, and is lifted by the hydraulic lifting vehicle 1, so that the workpiece is separated from the printing equipment.

In the sliding rail picking system, the sliding rail limiting blocks 9 are four in number and have the size ofThe two ends of the two slide rails 5 are respectively fixed by screws and used for preventing the sliding block 6 from sliding out of the linear slide rails 5.

In the sliding rail picking system of the utility model, the number of the anti-falling pins 10 is two, and the size is the same as that of the anti-falling pinsInserted into the anti-drop pin hole at the front end of the optical axis 8, and prevents the workpiece from sliding off from the front end when the workpiece is taken out.

As shown in fig. 1, the hydraulic lift truck 1 can be selected from existing products. The hydraulic lifting car 1 is connected with the balancing weight 2. The sliding rail pick-up system is connected with the hydraulic lifting car system through screws.

The specific operation is as follows:

step 1: the workpiece to be taken out is lifted to the uppermost surface of the equipment platform, and four lifting rings are screwed into screw holes on four corners of the workpiece substrate, wherein the directions of the lifting ring holes are consistent.

Step 2: the hydraulic lifting vehicle 1 is lifted to enable the optical axis 8 to be aligned with the hanging ring hole, the optical axis fixing plate 7 is pushed, the optical axis fixing plate 7 moves on the linear sliding rail 5 through the sliding block 6, the optical axis 8 extends out, and the optical axis 8 penetrates through the hanging ring hole.

Step 3: after the optical axis 8 passes through the hanging ring hole, an anti-drop pin 10 is inserted into an anti-drop pin hole at the front end of the optical axis 8.

Step 4: the hydraulic lifting vehicle 1 is continuously lifted, so that the workpiece is separated from the equipment platform to the unobstructed height by lifting, and then the hydraulic lifting vehicle 1 is pulled backwards to move the workpiece to the outside of the equipment cabin.

Step 5: after the hydraulic lifting truck 1 and the taken-out workpiece are completely separated from the equipment, the platform height of the hydraulic lifting truck 1 is reduced, so that the workpiece is nearest to the ground as much as possible, and the risk of rollover of the hydraulic lifting truck 1 is reduced.

Step 6: the hydraulic lifting vehicle 1 transfers the workpiece to an operation platform of the next procedure, the anti-drop pin 10 is taken down, the optical axis 8 is extracted, and the operation is completed.

Through the simple steps, the workpiece can be efficiently and safely taken out and transported; the transfer equipment can also be used for installing a printing substrate on an equipment platform. The device has the advantages of simple and practical structure, convenient operation and small occupied space, greatly reduces the safety risk in the process of taking the workpiece, and improves the production efficiency.

While the utility model has been described with respect to preferred embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the utility model as defined by the appended claims. Equivalent embodiments of the present utility model will be apparent to those skilled in the art having the benefit of the teachings disclosed herein, when considered in the light of the foregoing disclosure, and without departing from the spirit and scope of the utility model; meanwhile, any equivalent changes, modifications and evolution of the above embodiments according to the essential technology of the present utility model still fall within the scope of the technical solution of the present utility model.

Claims (7)

1. The auxiliary equipment for 3D printing workpiece taking is characterized by comprising a hydraulic lifting vehicle, a slide rail base fixing table, a linear slide rail, a slide block, an optical axis fixing plate and an optical axis; the hydraulic lifting vehicle is characterized in that a lifting mechanism is arranged on the hydraulic lifting vehicle, a slide rail base fixing table is arranged on the upper end face of the lifting mechanism, a linear slide rail is arranged on the slide rail base fixing table, a slide block is arranged on the linear slide rail in a penetrating mode, an optical axis fixing plate is arranged on the slide block, and an optical axis for taking a piece is arranged on the optical axis fixing plate.

2. An auxiliary device for 3D printing of workpiece pick-up according to claim 1, characterized in that the lifting mechanism is a hydraulic lifting mechanism in the form of a scissor hinge.

3. An auxiliary device for 3D printing workpiece pick-up according to claim 1, wherein a moving wheel is arranged under the chassis of the hydraulic lifting vehicle; the chassis of the hydraulic lifting vehicle is provided with a balancing weight.

4. The auxiliary device for 3D printing workpiece taking according to claim 1, wherein two parallel linear slide rails are arranged on the slide rail base fixing table; two sliding blocks are arranged on the linear sliding rail in a penetrating way.

5. The auxiliary device for 3D printing workpiece taking according to claim 1, wherein an optical axis fixing plate is fixedly arranged on the sliding block, and an optical axis with the length direction being the same as that of the linear sliding rail is arranged on the optical axis fixing plate.

6. The auxiliary device for 3D printing workpiece taking according to claim 1, wherein two ends of the linear slide rail are provided with slide rail limiting blocks for preventing the slide blocks from sliding out of the linear slide rail.

7. An auxiliary device for 3D printing of a workpiece according to claim 1, wherein the end of the optical axis extending toward the workpiece is provided with an anti-slip pin for preventing the workpiece from slipping off the front end of the optical axis.